Exploring the impact of mitochondrial-targeting anthelmintic agents with GLUT1 inhibitor BAY-876 on breast cancer cell metabolism.

IF 3.4 2区 医学 Q2 ONCOLOGY
Tanner J Schumacher, Ananth V Iyer, Jon Rumbley, Conor T Ronayne, Venkatram R Mereddy
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引用次数: 0

Abstract

Background: Cancer cells alter their metabolic phenotypes with nutritional change. Single agent approaches targeting mitochondrial metabolism in cancer have failed due to either dose limiting off target toxicities, or lack of significant efficacy in vivo. To mitigate these clinical challenges, we investigated the potential utility of repurposing FDA approved mitochondrial targeting anthelmintic agents, niclosamide, IMD-0354 and pyrvinium pamoate, to be combined with GLUT1 inhibitor BAY-876 to enhance the inhibitory capacity of the major metabolic phenotypes exhibited by tumors.

Methods: To test this, we used breast cancer cell lines MDA-MB-231 and 4T1 which exhibit differing basal metabolic rates of glycolysis and mitochondrial respiration, respectively. Metabolic characterization was carried out using Seahorse XFe96 Bioanalyzer and statistical analysis was carried out via ANOVA.

Results: Here, we found that specific responses to mitochondrial and glycolysis targeting agents elicit responses that correlate with tested cell lines basal metabolic rates and fuel preference, highlighting the potential to cater metabolism targeting treatment regimens based on specific tumor nutrient handling. Inhibition of GLUT1 with BAY-876 potently inhibited glycolysis in both MDA-MB-231 and 4T1 cells, and niclosamide and pyrvinium pamoate perturbed mitochondrial respiration that resulted in potent compensatory glycolysis in the cell lines tested.

Conclusion: In this regard, combination of BAY-876 with both mitochondrial targeting agents resulted in inhibition of compensatory glycolysis and subsequent metabolic crisis. These studies highlight targeting tumor metabolism as a combination treatment regimen that can be tailored by basal and compensatory metabolic phenotypes.

用 GLUT1 抑制剂 BAY-876 探索线粒体靶向抗蠕虫药对乳腺癌细胞代谢的影响。
背景:癌细胞会随着营养变化而改变其代谢表型。针对癌症线粒体代谢的单药疗法由于剂量限制性脱靶毒性或体内缺乏显著疗效而失败。为了减轻这些临床挑战,我们研究了将 FDA 批准的线粒体靶向抗蠕虫药尼可刹米、IMD-0354 和帕莫酸吡维尼与 GLUT1 抑制剂 BAY-876 结合使用的潜在效用,以增强对肿瘤主要代谢表型的抑制能力:为了验证这一点,我们使用了乳腺癌细胞株 MDA-MB-231 和 4T1,它们分别表现出不同的糖酵解和线粒体呼吸基础代谢率。我们使用海马 XFe96 生物分析仪进行了代谢表征,并通过方差分析进行了统计分析:结果:我们发现,线粒体和糖酵解靶向药物引起的特异性反应与受试细胞系的基础代谢率和燃料偏好相关,这突出了根据特定肿瘤营养物处理情况进行代谢靶向治疗的潜力。用BAY-876抑制GLUT1能有效抑制MDA-MB-231和4T1细胞中的糖酵解,尼可刹米和帕莫酸吡维尼胺扰乱线粒体呼吸,导致受试细胞株出现有效的代偿性糖酵解:结论:在这方面,将 BAY-876 与这两种线粒体靶向药物联合使用可抑制代偿性糖酵解和随后的代谢危机。这些研究突出表明,靶向肿瘤代谢是一种可根据基础代谢和代偿代谢表型量身定制的联合治疗方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
BMC Cancer
BMC Cancer 医学-肿瘤学
CiteScore
6.00
自引率
2.60%
发文量
1204
审稿时长
6.8 months
期刊介绍: BMC Cancer is an open access, peer-reviewed journal that considers articles on all aspects of cancer research, including the pathophysiology, prevention, diagnosis and treatment of cancers. The journal welcomes submissions concerning molecular and cellular biology, genetics, epidemiology, and clinical trials.
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